85 kHz GBW, 20 µA per channel — the low-power signal chain workhorse
The 85 kHz gain-bandwidth product and 0.03 V/µs slew rate tell you this is a micropower amplifier, not a high-speed one. It handles DC and low-frequency signals — think thermocouple amplifiers, photodiode transimpedance stages, or battery-monitor dividers — where the trade-off is sub-megahertz bandwidth for microamp-level supply draw. Input bias current is 0.6 pA typical, so it won't load high-impedance sources like pH probes or pyroelectric sensors. Input offset voltage is specified at 1.1 mV, adequate for many 8- to 10-bit measurement paths without external trimming.
Package and rework: 8-TSSOP on a standard footprint
Surface-mount only — no through-hole option. The fine pitch means a clean stencil and controlled reflow profile; hand-soldering is possible with a fine tip and flux, but the 0.65 mm pitch leaves little room for bridging errors. For pick-and-place lines, you will need to transfer to a feeder-compatible carrier or order a tape-and-reel variant if one exists.
Single-supply operation and temperature range
The TLV2322IPWLE operates from a single supply as low as 2 V, which covers two alkaline cells or a single Li-ion cell in discharge. The maximum supply is 8 V, so it also runs from a standard 5 V rail with headroom. This covers most indoor and outdoor equipment that isn't under-hood automotive — factory sensors, HVAC controllers, portable medical monitors, and IoT edge nodes.
Lifecycle and sourcing
It is RoHS non-compliant per the listing, so verify your assembly's exemption status if you are bound by the current RoHS directive.
